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Army Study Evaluates Use of Dogs in COVID-19 Detection

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Scientists at the Army Combat Capabilities Development Command Chemical Biological Center are partnering with the University of Pennsylvania and various canine training facilities to continue research on how canines can aid in the fight against COVID-19 and other chemical biological threats.

A team of researchers led by Dr. Patricia Buckley, supervisory biologist and chief of the Center's Biochemistry Branch, recently began phase two of this proof-of-concept study to determine if dogs can be trained to detect the odor of COVID-19 from human sweat.

Containers hang from the spokes attached to a large wheel; a dog sniffs at one of the containers.
COVID Sniffer
A scent detection dog sniffs out the correct container with the COVID-19 odor at the Army Combat Capabilities Development Command Chemical Biological Center, Aberdeen Proving Ground, Md., April 20, 2021.
Photo By: Brian Feeney
VIRIN: 210420-O-WC829-108

Center scientists say these dogs are able to detect a COVID-positive person days before a rapid test can. ''We're harnessing that scent-detection capability and figuring out how far we can take their limits of detection,'' said Jenna Gadberry, a research scientist at the center. ''So far, the levels they have been able to detect have been astounding.''

Funded by the Defense Department's Domestic Preparedness Support Initiative, this research is a collaborative effort that includes the center, University of Pennsylvania's Penn Vet Working Dog Center and Tactical Directional Canine (TDK9) Systems. Scientists at the center work together to take on research compliance, communicate with dog trainers, crunch data, and create test plans. The University of Pennsylvania serves as the sample collection hub to set up the clinical trial. The university obtains institutional review board approval to collect the clinical human samples and TDK9 and Penn Vet Working Dog Center conduct the canine detection training.

In the fall of 2020, the team of collaborators completed phase one of the study, which involved collecting human COVID-19 positive and negative urine and saliva specimens. Phase two required volunteer participants to wear a T-shirt overnight and send it to the University of Pennsylvania where the shirt would serve as the training aid sample for the dogs to sniff. Participants were required to have an accompanying COVID-19 test to verify whether they were positive or negative for the virus. Though this was a long and tedious process, center scientists say that it was worth it. ''It took longer than we anticipated, but we were fortunate to get lots of wonderful volunteers who offered to help us,'' said Dr. Michele Maughan, center research scientist.

Having collected samples from the shirts, the team will now analyze the data from the T-shirts and put the dogs to the test using a Center-developed tool called the Training Aid Delivery Device. According to Dr. Kelley Evans, center veterinary medical officer, ''The T-shirt study is going to prove if the dogs can detect those volatile organic compounds in sweat and determine if a person is asymptomatic for COVID-19.''

In a large field, eight dogs watch a man who holds a device in his hand.
Training Technique
Pat Nolan of Tactical Directional Canine Systems demonstrates training techniques with several canines at the Army Combat Capabilities Development Command Chemical Biological Center, Aberdeen Proving Ground, Md., Aug. 18, 2021.
Photo By: Brian Feeney
VIRIN: 210818-O-WC829-601

The detection dogs were selected based on a number of criteria, one being how motivated they were to sniff out the COVID-19 odor. According to Pat Nolan, owner and operator of TDK9, they had to find dogs excited and motivated enough to find the volatile organic compound odor but simultaneously focused enough to do the work. Eight dogs were chosen at the beginning of the project and have moved on to phase two. There are seven Labrador retrievers and one Belgian Malinois between ages 2 and 7. The dogs come from all over the United States, and there's even a dog from Mexico.

The center's team is excited about the major impact that this research could have in the fight against COVID-19, but they're also hopeful that it will positively impact the warfighter by detecting biological threats beyond the pandemic. ''The way that we've been posing this capability to folks is not necessarily a COVID-19 detection capability; it's a biological threat detection capability,'' said Gadberry. ''We know that this isn't going to be the last time we see some sort of a virus or pandemic, but we're demonstrating the ability for dogs to be able to find a positive person or threat. We can take what we learn from the dogs to actually apply it to some of our handheld detectors or laboratory detection systems. They're able to detect far different elements at this point in time than our laboratory equipment can.''

Scientists at the center hope to use the canine capability in settings where large groups of people gather, including large ships, training environments and events such as the U.S. Military Academy graduation. ''Utilizing this capability would be good for the Army in many ways, especially whenever they have large-area exercises or a large number of people who have to be congregated in one place. We're looking to see if we could have a way to promote the safety of warfighters in large gatherings by screening while they're in that element,'' Buckley said.

For more information, visit the DEVCOM Chemical Biological Center website

 

 

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